Presentation is loading. Please wait.

Presentation is loading. Please wait.

Physics 102: Lecture 6, Slide 1 Kirchhoff’s Laws Today’s lecture will cover Textbook Sections 18.5, 7 Physics 102: Lecture 06 Conflict Exam sign up available.

Published byMerryl Garrett Modified over 8 years ago

Similar presentations

Presentation on theme: "Physics 102: Lecture 6, Slide 1 Kirchhoff’s Laws Today’s lecture will cover Textbook Sections 18.5, 7 Physics 102: Lecture 06 Conflict Exam sign up available."— Presentation transcript:

1 Physics 102: Lecture 6, Slide 1 Kirchhoff’s Laws Today’s lecture will cover Textbook Sections 18.5, 7 Physics 102: Lecture 06 Conflict Exam sign up available in grade book Be Careful with round off errors in homework 3!

2 Physics 102: Lecture 6, Slide 2 Last Time Resistors in series: Resistors in parallel: Current thru is same; Voltage drop across is IR i Voltage drop across is same; Current thru is V/R i Last Lecture Solved Circuits What about this one? Today

3 Physics 102: Lecture 6, Slide 3 Kirchhoff’s Rules Kirchhoff’s Voltage Rule (KVR):KVR –Sum of voltage drops around a loop is zero. Kirchhoff’s Current Rule (KCR): –Current going in equals current coming out.

4 Physics 102: Lecture 6, Slide 4 Kirchhoff’s Laws (1)Label all currents Choose any direction (2)Label +/- for all elements Current goes +  - (for resistors) (3)Choose loop and direction Must start on wire, not element. (4)Write down voltage drops First sign you hit is sign to use. R4R4 I1I1 I3I3 I2I2 I4I4 + + ++ + - -- - - + + + - - - R1R1 E1E1 R2R2 R3R3 E2E2 E3E3 R5R5 A B

5 Physics 102: Lecture 6, Slide 5 KVR Practice R 1 =5  I  1 = 50V + - + - + - +- R 2 =15   2 = 10V A B What if only went from A to B? V A – V B = V A - V B = Find I:  2 = 10V R 1 =5  I + - + -  1 = 50V + - +- R 2 =15  A B 22

6 Physics 102: Lecture 6, Slide 6 KVR Practice R 1 =5  I –  1 +IR 1 +  2 + IR 2 = 0 -50 + 5 I + 10 +15 I = 0 I = +2 Amps  1 = 50V + - + - + - +- R 2 =15   2 = 10V A B What if only went from A to B? V A - V B = -IR 2 – E 2 = -2  15 - 10 = -40 Volts V A - V B = –E 1 + IR 1 = -50 + 2  5 = -40 Volts Find I:  2 = 10V R 1 =5  I + - + -  1 = 50V + - +- R 2 =15  A B Label currents Label elements +/- Choose loop Write KVR

7 Physics 102: Lecture 6, Slide 7 ACT: KVR R 1 =10  E 1 = 10 V IBIB I1I1 E 2 = 5 V R 2 =10  I2I2 Resistors R 1 and R 2 are: 1) in parallel 2) in series 3) neither + -

8 Physics 102: Lecture 6, Slide 8 ACT: KVR R 1 =10  E 1 = 10 V IBIB I1I1 E 2 = 5 V R 2 =10  I2I2 Resistors R 1 and R 2 are 1) in parallel 2) in series 3) neither + - Definition of parallel: Two elements are in parallel if (and only if) you can make a loop that contains only those two elements. Definition of series: Two elements are in series if (and only if) every loop that Contains R 1 also contains R 2

9 Physics 102: Lecture 6, Slide 9 Preflight 6.1 R 1 =10  E 1 = 10 V IBIB I1I1 R 2 =10  I2I2 1)I 1 = 0.5 A 2)I 1 = 1.0 A 3)I 1 = 1.5 A +- + - How would I 1 change if the switch was closed? E 2 = 5 V 1) Increase 2) No change 3) Decrease Calculate the current through resistor 1. ACT: Voltage Law

10 Physics 102: Lecture 6, Slide 10 Preflight 6.1 R 1 =10  E 1 = 10 V IBIB I1I1 R 2 =10  I2I2 1) I 1 = 0.5 A 2) I 1 = 1.0 A 3) I 1 = 1.5 A +- + - - E 1 + I 1 R 1 = 0  I 1 = E 1 /R 1 = 1A How would I 1 change if the switch was opened? E 2 = 5 V 1) Increase 2) No change 3) Decrease Calculate the current through resistor 1. ACT: Voltage Law

11 Physics 102: Lecture 6, Slide 11 Preflight 6.2 R 1 =10  E 1 = 10 V IBIB I1I1 E 2 = 5 V R 2 =10  I2I2 1)I 2 = 0.5 A 2)I 2 = 1.0 A 3)I 2 = 1.5 A + - + - Calculate the current through resistor 2.

12 Physics 102: Lecture 6, Slide 12 Preflight 6.2 R 1 =10  E 1 = 10 V IBIB I1I1 E 2 = 5 V R 2 =10  I2I2 1) I 2 = 0.5 A 2) I 2 = 1.0 A 3) I 2 = 1.5 A + - + - - E 1 + E 2 + I 2 R 2 = 0  I 2 = 0.5A Calculate the current through resistor 2.

13 Physics 102: Lecture 6, Slide 13 Kirchhoff’s Junction Rule Current Entering = Current Leaving I1I1 I2I2 I3I3 I 1 = I 2 + I 3 1)I B = 0.5 A 2)I B = 1.0 A 3)I B = 1.5 A R=10  E 1 = 10 V IBIB I1I1 E = 5 V R=10  I2I2 + - Preflight 6.3

14 Physics 102: Lecture 6, Slide 14 Kirchhoff’s Junction Rule Current Entering = Current Leaving I1I1 I2I2 I3I3 I 1 = I 2 + I 3 1) I B = 0.5 A 2) I B = 1.0 A 3) I B = 1.5 A I B = I 1 + I 2 = 1.5 A R=10  E 1 = 10 V IBIB I1I1 E = 5 V R=10  I2I2 + - Preflight 6.3

15 Physics 102: Lecture 6, Slide 15 You try it! R1R1 R2R2 R3R3 I1I1 I3I3 I2I2 + - + + + Loop 1: 1.Label all currents 2. Label +/- for all elements 3. Choose loop and direction 4.Write down voltage drops - - - Loop 2: 11 5. Write down node equation Node: 22 In the circuit below you are given  1,  2, R 1, R 2 and R 3. Find I 1, I 2 and I 3. + -

16 Physics 102: Lecture 6, Slide 16 Kirchhoff’s Laws (1)Label all currents Choose any direction (2)Label +/- for all elements Current goes +  - (for resistors) (3)Choose loop and direction Your choice! (4)Write down voltage drops Follow any loops (5)Write down node equation I in = I out R4R4 R1R1 E1E1 R2R2 R3R3 E2E2 E3E3 I1I1 I3I3 I2I2 I4I4 R5R5 A B 36

17 Physics 102: Lecture 6, Slide 17 You try it! R1R1 R2R2 R3R3 I1I1 I3I3 I2I2 + - + + + Loop 1: –  1 +I 1 R 1 – I 2 R 2 = 0 1.Label all currents (Choose any direction) 2. Label +/- for all elements (Current goes +  - for resistor) 3. Choose loop and direction (Your choice!) 4.Write down voltage drops (First sign you hit is sign to use!) - - - Loop 2: 11 5. Write down node equation Node: I 1 + I 2 = I 3 22 3 Equations, 3 unknowns the rest is math! In the circuit below you are given  1,  2, R 1, R 2 and R 3. Find I 1, I 2 and I 3. Loop 1 Loop 2  + -   + I 2 R 2 + I 3 R 3 +  2 = 0  

18 Physics 102: Lecture 6, Slide 18 See you next lecture! Read Sections 18.10,11

Download ppt "Physics 102: Lecture 6, Slide 1 Kirchhoff’s Laws Today’s lecture will cover Textbook Sections 18.5, 7 Physics 102: Lecture 06 Conflict Exam sign up available."

Similar presentations

Guide to solving complex circuits.

Guide to solving complex circuits.
Circuits.

Circuits.
Unit 8 Combination Circuits

Unit 8 Combination Circuits
Light bulb When switch is closed, bulbs are … Brighter The same Dimmer than the bulb above (?)

Light bulb When switch is closed, bulbs are … Brighter The same Dimmer than the bulb above (?)
Physics 1161: Lecture 10 Kirchhoff’s Laws. Kirchhoff’s Rules Kirchhoff’s Junction Rule: – Current going in equals current coming out. Kirchhoff’s Loop.

Physics 1161: Lecture 10 Kirchhoff’s Laws. Kirchhoff’s Rules Kirchhoff’s Junction Rule: – Current going in equals current coming out. Kirchhoff’s Loop.
Today 3/28  Circuits  Current  Potential (same as always)  Capacitance (energy and in circuits)  HW:3/28 “Circuits 3” Due Wednesday 4/2  Note: Watch.

Today 3/28  Circuits  Current  Potential (same as always)  Capacitance (energy and in circuits)  HW:3/28 “Circuits 3” Due Wednesday 4/2  Note: Watch.
Parallel Circuits ENTC 210: Circuit Analysis I Rohit Singhal Lecturer Texas A&M University.

Parallel Circuits ENTC 210: Circuit Analysis I Rohit Singhal Lecturer Texas A&M University.
EET 110 - Survey of Electronics Chapter 14 - Series-parallel circuits.

EET Survey of Electronics Chapter 14 - Series-parallel circuits.
Copyright © 2009 Pearson Education, Inc. Admin: Mid-term date Friday March 20 th. Assignments : Second graded assignment is posted Make time for it – it’s.

Copyright © 2009 Pearson Education, Inc. Admin: Mid-term date Friday March 20 th. Assignments : Second graded assignment is posted Make time for it – it’s.
7/2/20151 T-Norah Ali Al-moneef king saud university.

7/2/20151 T-Norah Ali Al-moneef king saud university.
Chapter 26 DC Circuits. I Junction rule: The sum of currents entering a junction equals the sum of the currents leaving it. 26-3 Kirchhoff’s Rules.

Chapter 26 DC Circuits. I Junction rule: The sum of currents entering a junction equals the sum of the currents leaving it Kirchhoff’s Rules.
Lecture 2 Basic Circuit Laws

Lecture 2 Basic Circuit Laws
Combined Series and Parallel Circuits Objectives: 1. Calculate the equivalent resistance, current, and voltage of series and parallel circuits. 2. Calculate.

Combined Series and Parallel Circuits Objectives: 1. Calculate the equivalent resistance, current, and voltage of series and parallel circuits. 2. Calculate.
Today 3/31  Circuits  Current  Potential (same as always)  Capacitance (energy and in circuits)  HW:3/31 “Circuits 4” Due Thursday 4/3  Exam 3 Thursday,

Today 3/31  Circuits  Current  Potential (same as always)  Capacitance (energy and in circuits)  HW:3/31 “Circuits 4” Due Thursday 4/3  Exam 3 Thursday,
Series Circuits Circuits in which there is only one path for current to flow through All elements of the circuit (resistors, switches etc…) are in the.

Series Circuits Circuits in which there is only one path for current to flow through All elements of the circuit (resistors, switches etc…) are in the.
Physics 2112 Unit 10: Kirchhoff’s Rules

Physics 2112 Unit 10: Kirchhoff’s Rules
Kirchhoff’s Laws SPH4UW. Last Time Resistors in series: Resistors in parallel: Current thru is same; Voltage drop across is IR i Voltage drop across is.

Kirchhoff’s Laws SPH4UW. Last Time Resistors in series: Resistors in parallel: Current thru is same; Voltage drop across is IR i Voltage drop across is.
Objective of Lecture Provide step-by-step instructions for mesh analysis, which is a method to calculate voltage drops and mesh currents that flow around.

Objective of Lecture Provide step-by-step instructions for mesh analysis, which is a method to calculate voltage drops and mesh currents that flow around.
1 DC ELECTRICAL CIRCUITS COMBINATION SERIES PARALLEL CIRCUITS.

1 DC ELECTRICAL CIRCUITS COMBINATION SERIES PARALLEL CIRCUITS.
Monday March 4, 2013 Introducing Current and Direct Current Circuits.

Monday March 4, 2013 Introducing Current and Direct Current Circuits.

Similar presentations

Ads by Google